吳 蕙芬
職稱 副教授
姓名 吳 蕙芬
聯絡電話 02-33664818
電子郵件 whifinWu@gmail.com
研究專長 細菌生理、分子遺傳學
授課領域 普通微生物學
研究室名稱(位置) 環境及分子微生物學研究室(農化二館R310)
研究室網站 http://www.emm311.net/
國家 學校名稱 系所 學位
美國 愛荷華大學 微生物 博士
美國 愛荷華大學 微生物 碩士
臺灣 國立臺灣大學 植病系病理組 學士
Publication List:
  1. C.-Y. Chang, Y.-T. Weng, L.-Y. Hwang, H. T. Hu, P.-S. Shih, J.-E. Kuan, K.-F. Wu and W. F. Wu (2019) Specific regions of the SulA protein recognized and degraded by the  ATP-dependent ClpYQ (HslUV) protease in Escherichia coli. Microbiological research 220:21-31.
  2. C.-H. Tsai, Y.-H. Ho, T.-C. Sung, W.-F. Wu and C.-S. Chen (2017) Escherichia coli proteome microarrays  identified the substrates of ClpYQ protease. Molecular & Cellular  Proteomics 16.1: 1-8.
  3. L.-C. Kao and W.-F. Wu (2016) The study of key amino acid on ClpY hexamer formation. Taiwanese journal of agricultural chemistry and food science 54(2): 1-10. 
  4. C.-Y. Chang, H.-T. Hu, C.-H. Tsai and W.-F. Wu (2016) The degradation of RcsA by ClpYQ(HslUV) protease in Escherichia coli. Microbiological research 184:42-50.
  5. C. -W. Chien, T.-N. Tsai, C.-T. Chen and W.-F. Wu (2015) Regulation of Salmonella typhimurium metE gene expression by FnrS.  Taiwanese journal of agricultural chemistry and food science.53(6):259-267.
  6. L.-Y. Hwang, H.-T. Hu, C.-H. Tsai and W.-F. Wu. (2014) The Escherichia coli ClpYQ protease recognizes the C-terminal tail of SulA. Taiwanese journal of agricultural chemistry and food science. 52(1):1-11.
  7. C.-F. Chang, C.-W. Chien, C.-H. Tsai and W.-F. Wu (2013) The Salmonella typhimurium gene factors involved in regulation of metE gene. Taiwanese journal of agricultural chemistry and food science. 51(2):94-101.
  8. C.Yang, T.-W. Huang, S.-Y. Wen, C.-Y. Chang, S.-F. Tsai, W.- F. Wu and C.- H. Chang (2012) Genome-wide PhoB binding and gene expression profiles reveal the  hierarchical gene regulatory network of phosphate starvation in Escherichia coli. PLoS ONE 7: e47314.
  9. F.-C. Hsieh, C.-T. Chen, Y.-T. Weng, S.-S. Peng, Y.-C. Chen, L.-Y. Huang, H.-T. Hu, Y.-L. Wu, N.-C. Lin and W.-F. Wu (2011) Stepwise activity of ClpY (HslU) mutants in the processive degradation of Escherichia coli ClpYQ (HslUV) protease substrates. J. Bacteriology 193: 5465–5476.
  10. B.-Y. Chiang, T.-C.Chen, C.-H. Pai, C.-C.Chou, H.-H. Chen, T.-P. Ko, W.-H. Hsu, C.-Y. Chang, W.-F. Wu, A. H.-J. Wang, and C. H. Lin (2010) Protein S-thiolation by glutaspermidine (GSP): the role of Escherichia coli GSP synthetase/amidase in redox regulation. J. Biol. Chem. 285:25345-25353.
  11. H.-Y. Lien, R.-S. Shy, S.-S. Peng, Y.-L. Wu, Y.-T. Weng, H.-H. Chen, P.-C. Su, W.-F. Ng, Y.-C. Chen, P.-Y. Chang, and W.-F. Wu (2009) Characterization of the Escherichia coli ClpY (HslU) substrate recognition site in the ClpYQ (HslUV) protease using the yeast two-hybrid system. J. Bacteriol. 191:4218-4231.
  12. H.-Y. Lien, C.-H. Yu, C.-M. Liou and W. F. Wu (2009) Regulation of clpQ+Y+(hslV+U+) gene expression in Escherichia coli. Open Microbiol. J. 3:29-39.
  13. 專書章節:
    W.-F. Wu, C.-S. Yang, H.-Y. Lien, F. C. Hsieh, and C.-Y. Chang (2008) HslUV (ClpYQ), an ATP-dependent  protease with unique characteristics. P.115-143. In E. Kutejova (ed.), ATP-dependent proteases, Research Signpost,  Kerala, India. ISBN: 978-81-308-02824.